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W2082497480 abstract "In this paper, we establish optimal conditions for maximal energy transfer efficiency using solutions for multilevel systems and interpret these analytical solutions with more intuitive kinetic networks resulting from a systematic mapping procedure. The mapping procedure defines an effective hopping rate as the leading order picture and nonlocal kinetic couplings as the quantum correction, hence leading to a rigorous separation of thermal hopping and coherent transfer useful for visualizing pathway connectivity and interference in quantum networks. As a result of these calculations, the dissipative effects of the surrounding environments can be optimized to yield the maximal efficiency, and modulation of the efficiency can be achieved using the cumulative quantum phase along any closed loops. The optimal coupling of the system and its environments is interpreted with the generic mechanisms: (i) balancing localized trapping and delocalized coherence, (ii) reducing the effective detuning via homogeneous line-broadening, (iii) suppressing the destructive interference in nonlinear network configurations, and (iv) controlling phase modulation in closed loop configurations. Though these results are obtained for simple model systems, the physics thus derived provides insights into the working of light harvesting systems, and the approaches thus developed apply to large-scale computation." @default.
W2082497480 created "2016-06-24" @default.
W2082497480 creator A5012767116 @default.
W2082497480 creator A5049476042 @default.
W2082497480 date "2009-11-24" @default.
W2082497480 modified "2023-10-02" @default.
W2082497480 title "Optimization of Exciton Trapping in Energy Transfer Processes" @default.
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W2082497480 doi "https://doi.org/10.1021/jp9032589" @default.
W2082497480 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19929005" @default.
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